EP1580033A1 - Pneumatic tire - Google Patents

Abstract

Automobile tires with a running profile including blocks (5, 6) of peripheral and transverse (7, 8) slots, where blocks (5) have side regions which on rolling of the tire make first contact with the base are slanted so that the edges (9) at the running surface periphery are partially displaced in the direction of the outer edge (10).

Description

The invention relates to a pneumatic vehicle tire with a tread profile with Circumferential grooves and transverse grooves formed blocks.

From EP-B-0 393 873, for example, a pneumatic vehicle tire with a Block profile known, whose blocks each with a number of cuts are provided, which at least substantially transversely to the circumferential direction of Tire-oriented. To improve the traction characteristics and to Homogeneity of the abrasion, it is known from this document, the Bevel the top surface of the tread between two adjacent cuts.

Pneumatic vehicle tires with tread pattern with blocks in blocks are arranged, are known in various embodiments, wherein Such profiles both directional as well as the direction can be carried out independently. The arrangement of the circumferential grooves and Transverse grooves as well as their groove volumes are designed to ensure that the tire rests on wet roads even at higher speeds little to Floating tends. For this purpose are in the tread transverse grooves For example, arranged diagonally to remove water from the before the Tire forming wedge over grooves to distribute and dissipate to the outside can. Complicating the water drainage through the impeller effect of Tread blocks. The steep block edges "scoop" water from the water wedge in the grooves and thereby promote a floating of the tire.

The invention is based on the object, the tread of a Make pneumatic vehicle tire so that the paddle wheel effect is reduced becomes.

The object is achieved according to the invention by blocks whose Block edge area, which when rolling the tire first with the ground is in contact, is tapered so that at the tread periphery present incoming edge at least partially in the direction of the expiring Edge has been added.

According executed according to profile blocks occur with their inclined surfaces with the in contact with the tire forming wedge and therefore prevent largely the occurrence of the Schauffelrad effect. The water from the Water wedge can be unhindered by the grooves and grooves of the tread pattern be dissipated.

According to a preferred embodiment of the invention, which passes through the Bevel formed oblique surface at an angle of 30 ° to 60 ° to radial direction. Such sloping surfaces are particularly effective. In In this context, it is also advantageous if, depending on the selected angle, the inclined surface reaches 20% to 80% of the depth of the transverse groove.

A triangular design of the inclined surface is particularly advantageous if the respective transverse groove is at a larger angle to the transverse direction of the Tread is running. By this measure, the incoming edge, opposite to the other course of the transverse groove, more in the transverse direction of the Orient the tread.

The invention can also be applied to profiles which are a preferred one Have direction of rotation. In this case, blocks may be provided whose a block edge, with respect to which one possible direction of rotation is bevelled, and it is possible to provide blocks whose other block edge, relative to the other direction of rotation, bevelled. Alternatively, the tread with Blocks are provided, the two block edges according to the invention are bevelled.

Fig. 1 eine Draufsicht auf eine Teilabwicklung eines Laufstreifens eines Fahrzeugluftreifens,

Fig. 2 eine Schrägansicht zweier Profilblöcke und

Fig. 3 einen Teilschnitt in Umfangsrichtung.

Further features, advantages and details of the invention will now be described with reference to the drawing, which schematically illustrates an embodiment. Show

1 is a plan view of a partial development of a tread of a pneumatic vehicle tire,

Fig. 2 is an oblique view of two profiled blocks and

Fig. 3 is a partial section in the circumferential direction.

The tread pattern shown by way of example and simplified in FIG. 1 for a Car pneumatic tires for passenger cars has one along the equatorial line A-A extending and circumferentially straight circumferential groove 1 and in each Tread half two rows of blocks 2, 3, which in each case by a in Circumferentially circumferential circumferential groove 4 are separated from each other. The Blocks 5, 6 within each block row 2, 3 are separated from each other by transverse grooves 7, 8 separated, whereby by the V-shaped course of the transverse grooves 7, 8 on the Tread width a running direction bound executed tread formed becomes. A tire with such a profile is mounted on the vehicle so that the V-tips when rolling the tire first in the contact surface with the Underground enter. The arrow P in Fig. 1 shows the direction of rotation of the tire. at a tire with a running direction tread executed tread occurs each block 5, 6 when rolling the tire with a certain edge, the so-called incoming edge, first in the contact surface with the ground one and with the second edge, the leaking edge, from the underground. In the illustrated embodiment, the blocks 5, 6 at their outgoing edges 10, that is, the edges 10 at the tread periphery in the radial direction or substantially in the radial direction Limit block edges.

With reference to FIG. 2, two variants of the invention in blocks 5 from the Shoulder block row 3 explained. The front block 5 is along its "theoretical" incoming edge chamfered so that its incoming edge 9 in the direction leaking edge 10 has been added, whereby the respective transverse groove 7th here limiting block edge, starting from the tread periphery, from a Bevel 11 and a flank surface 13, which in a conventional manner, in the radial direction or substantially in the radial direction. The angle α, which includes the inclined surface 11 with the radial is between 30 ° and 60 °, in particular selected about 45 °. Depending on the size of the angle α sets the Bevel 11 at a depth that is between 20% and 80% of the transverse depth is.

A second variant of the invention is shown at the rear block 5 in FIG. Of the Block 5 is chamfered at its incoming region such that the Sloping surface 12 has the shape of a triangle. Also in this variant is Therefore, the incoming edge 9 offset towards the expiring edge 10. Of the Angle α of the inclined surface 12 relative to the radial is also at this Embodiment selected in the above-mentioned range. The lowest point for the Beginning of the inclined surface 12 is depending on the angle α between 20% and 80% of Quernuttiefe.

Fig. 3 shows a peripheral portion of a rolling on the ground tire. Of the Arrow P points in the direction of rotation of the tire, the arrow F points in the direction of travel. It can be seen that the blocks 5 are provided with their oblique surfaces 11 Areas first into the contact surface with the ground. The Slanted surfaces 11 largely prevent the usual Block-edge designs when driving on wetness occurring paddlewheel effect. Before the tire forms depending on the driving speed at Driving on wet surface a water wedge. The water from the water wedge becomes with conventionally executed block edges downright in the grooves "scooped in", which promotes a floating of the tire. The Sloping surfaces reduce the bucket wheel effect, since they are an advantageous Favor distribution of the water.

The invention has been explained with reference to a rotationally bound profile. However, it is also possible to have profiles which are independent of the direction of rotation, to carry out according to the invention, for example, by both block edges of Blocks are bevelled. In this case, an embodiment is possible in the for example, in the shoulder block rows beveled a block edges and in the middle row block rows the others Beveled bevels. It is also conceivable, the inclined surfaces or Make bevels only over part of the relevant block edges, especially with triangular inclined surfaces.

Claims (6)

Pneumatic vehicle tire having a tread pattern with blocks (5, 6) formed by circumferential grooves (1, 4) and transverse grooves (7, 8),
marked by
Blocks (5), the block edge region, which first comes into contact with the substrate during rolling of the tire, is chamfered such that the existing on the tread periphery peripheral edge (9) has been at least partially offset in the direction of the outgoing edge (10) , Pneumatic vehicle tire according to claim 1, characterized in that the inclined surface (11, 12) formed by the bevel is inclined at an angle (α) of 30 ° to 60 ° to the radial direction. Pneumatic vehicle tire according to claim 1 or 2, characterized in that the inclined surface (11, 12) to 20% to 80% of the depth of the transverse groove (7, 8) extends. Pneumatic vehicle tire according to claim 1 to 3, characterized in that the inclined surface (12) is triangular. Pneumatic vehicle tire according to one of claims 1 to 4, characterized in that in the tread blocks are present, whose one block edge, with respect to the one direction of rotation, is chamfered and blocks are present whose other block edge, with respect to the other direction of rotation, is chamfered. Pneumatic vehicle tire according to one of claims 1 to 4, characterized in that in the tread blocks are present, whose two block edges are chamfered.

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